THE POTENTIOMETRIC UREA BIOSENSOR USING CHITOSAN MEMBRANE
Ani Mulyasuryani(1*), Anna Roosdiana(2), Arie Srihardyastutie(3)
(1) Chemistry Department, Brawijaya University Jalan Veteran, Malang
(2) Chemistry Department, Brawijaya University Jalan Veteran, Malang
(3) Chemistry Department, Brawijaya University Jalan Veteran, Malang
(*) Corresponding Author
Abstract
Potentiometric urea biosensor development is based on urea hydrolysis by urease resulted CO2. The biosensor is used chitosan membrane and the H3O+ electrode as a transducer. The research was studied of effecting pH and membrane thickness to the biosensor performance. The best biosensor performance resulted at pH = 7.3 and 0.2 mm of membrane thickness. The biosensor has a Nerntian factor 28.47 mV/decade; the concentration range is 0.1 up to 6.00 ppm; and the limit of detection is 0.073 ppm. The response time of this biosensor is 280 seconds, efficiency 32 samples and accuracy 94% up to 99%.
Keywords
Full Text:
Full Text PDFReferences
[1] Bennington, J.L., 1984, Dictionary and Encyclopedia of Laboratory Medicine and Technology, W.B. Saunders Co., Philadelphia.
[2] Egins, B.R., 2002, Chemical Sensors and Biosensors, John Wiley & Sons, LTD, Singapore.
[3] Chaplin, M., 2004, Potentiometric Biosensors, Faculty of Engineering, Science and The Built Environment, South Bank University, London.
[4] Wang, Y., Xu, H., Zhang, J., and Li, G., 2008, Sensors , 8, 2043–2081.
[5] Eggenstein, C., Borchardt, M., Diekmann, C., Gründig, B., Dumschat, C., Cammann, K., Knoll, M., and Spener, F., 1999, Biosens. Bioelectron, 14, 33–41.
[6] Pijanowska, D.G., Dawgul, M., and Torbich, W., 2003, Sensors, 3, 160–165.
[7] Grieshaber, D., MacKenzie, R., Vörös, J., and Reimhult, E., 2008, Sensors, 8, 1400–1458.
[8] Yahya, P.K.I., Julianto, A., Mulyasuryani, A., and Roosdiana, A., 2007, International Conference on Chemistry, UGM, Yogyakarta, Indonesia.
[9] Carroll, J.J., and Mather, A.E., 1992, J. Solution Chem., 21, 607–621.
[10] Ito, A., Sato, M., and Anma, T., 1997, Permeability of CO2 Through Chitosan Membrane Swollen by Water Vapor in Feed Gas, Department of Material and Chemical Engineering, Niigata University, Japan.
[11] Mulyasuryani, A., Roosdiana, A., Sutrisno, and Srihardyastutie, A., 2008, The 2nd Penang International Conference for Young Chemists, Penang, Malaysia.
[12] Krajewska, B., Leszko, M., and Zaborska, W., 1990, Urease Immobilized on Chitosan Membrane: Preparation and Properties, http://www.ncbi.nlm.nih.gov.
[13] Wang, J., 2001, Analytical Electrochemistry, 2rd ed., VCH Publisher, Inc., 133.
[14] Gu, Z.Y., Xue, and Li,, 2001, Polym. Adv. Tech., 53, 665-669.
[15] Magalhães, J.M.C.S., and Machado, A.A.S.C., 2002, Analyst, 127, 1400–1458.
[16] Srivastava, P.K., Arvind, M.K., and Srinivasan, 2001, Biotechnol. Appl. Biochem., 34, 55–62.
DOI: https://doi.org/10.22146/ijc.21454
Article Metrics
Abstract views : 2337 | views : 2470Copyright (c) 2010 Indonesian Journal of Chemistry
This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Indonesian Journal of Chemistry (ISSN 1411-9420 /e-ISSN 2460-1578) - Chemistry Department, Universitas Gadjah Mada, Indonesia.
View The Statistics of Indones. J. Chem.